A Simplified and Versatile System for the Simultaneous Expression of Multiple siRNAs in Mammalian Cells Using Gibson DNA Assembly

RNA interference (RNAi) denotes sequence-specific mRNA degradation induced by short interfering double-stranded RNA (siRNA) and has become a revolutionary tool for functional annotation of mammalian genes, as well as for development of novel therapeutics. The practical applications of RNAi are usual...

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Autores principales: Deng, Fang, Chen, Xiang, Liao, Zhan, Yan, Zhengjian, Wang, Zhongliang, Deng, Youlin, Zhang, Qian, Zhang, Zhonglin, Ye, Jixing, Qiao, Min, Li, Ruifang, Denduluri, Sahitya, Wang, Jing, Wei, Qiang, Li, Melissa, Geng, Nisha, Zhao, Lianggong, Zhou, Guolin, Zhang, Penghui, Luu, Hue H., Haydon, Rex C., Reid, Russell R., Yang, Tian, He, Tong-Chuan
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2014
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4232585/
https://www.ncbi.nlm.nih.gov/pubmed/25398142
http://dx.doi.org/10.1371/journal.pone.0113064
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author Deng, Fang
Chen, Xiang
Liao, Zhan
Yan, Zhengjian
Wang, Zhongliang
Deng, Youlin
Zhang, Qian
Zhang, Zhonglin
Ye, Jixing
Qiao, Min
Li, Ruifang
Denduluri, Sahitya
Wang, Jing
Wei, Qiang
Li, Melissa
Geng, Nisha
Zhao, Lianggong
Zhou, Guolin
Zhang, Penghui
Luu, Hue H.
Haydon, Rex C.
Reid, Russell R.
Yang, Tian
He, Tong-Chuan
author_facet Deng, Fang
Chen, Xiang
Liao, Zhan
Yan, Zhengjian
Wang, Zhongliang
Deng, Youlin
Zhang, Qian
Zhang, Zhonglin
Ye, Jixing
Qiao, Min
Li, Ruifang
Denduluri, Sahitya
Wang, Jing
Wei, Qiang
Li, Melissa
Geng, Nisha
Zhao, Lianggong
Zhou, Guolin
Zhang, Penghui
Luu, Hue H.
Haydon, Rex C.
Reid, Russell R.
Yang, Tian
He, Tong-Chuan
author_sort Deng, Fang
collection PubMed
description RNA interference (RNAi) denotes sequence-specific mRNA degradation induced by short interfering double-stranded RNA (siRNA) and has become a revolutionary tool for functional annotation of mammalian genes, as well as for development of novel therapeutics. The practical applications of RNAi are usually achieved by expressing short hairpin RNAs (shRNAs) or siRNAs in cells. However, a major technical challenge is to simultaneously express multiple siRNAs to silence one or more genes. We previously developed pSOS system, in which siRNA duplexes are made from oligo templates driven by opposing U6 and H1 promoters. While effective, it is not equipped to express multiple siRNAs in a single vector. Gibson DNA Assembly (GDA) is an in vitro recombination system that has the capacity to assemble multiple overlapping DNA molecules in a single isothermal step. Here, we developed a GDA-based pSOK assembly system for constructing single vectors that express multiple siRNA sites. The assembly fragments were generated by PCR amplifications from the U6-H1 template vector pB2B. GDA assembly specificity was conferred by the overlapping unique siRNA sequences of insert fragments. To prove the technical feasibility, we constructed pSOK vectors that contain four siRNA sites and three siRNA sites targeting human and mouse β-catenin, respectively. The assembly reactions were efficient, and candidate clones were readily identified by PCR screening. Multiple β-catenin siRNAs effectively silenced endogenous β-catenin expression, inhibited Wnt3A-induced β-catenin/Tcf4 reporter activity and expression of Wnt/β-catenin downstream genes. Silencing β-catenin in mesenchymal stem cells inhibited Wnt3A-induced early osteogenic differentiation and significantly diminished synergistic osteogenic activity between BMP9 and Wnt3A in vitro and in vivo. These findings demonstrate that the GDA-based pSOK system has been proven simplistic, effective and versatile for simultaneous expression of multiple siRNAs. Thus, the reported pSOK system should be a valuable tool for gene function studies and development of novel therapeutics.
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spelling pubmed-42325852014-11-26 A Simplified and Versatile System for the Simultaneous Expression of Multiple siRNAs in Mammalian Cells Using Gibson DNA Assembly Deng, Fang Chen, Xiang Liao, Zhan Yan, Zhengjian Wang, Zhongliang Deng, Youlin Zhang, Qian Zhang, Zhonglin Ye, Jixing Qiao, Min Li, Ruifang Denduluri, Sahitya Wang, Jing Wei, Qiang Li, Melissa Geng, Nisha Zhao, Lianggong Zhou, Guolin Zhang, Penghui Luu, Hue H. Haydon, Rex C. Reid, Russell R. Yang, Tian He, Tong-Chuan PLoS One Research Article RNA interference (RNAi) denotes sequence-specific mRNA degradation induced by short interfering double-stranded RNA (siRNA) and has become a revolutionary tool for functional annotation of mammalian genes, as well as for development of novel therapeutics. The practical applications of RNAi are usually achieved by expressing short hairpin RNAs (shRNAs) or siRNAs in cells. However, a major technical challenge is to simultaneously express multiple siRNAs to silence one or more genes. We previously developed pSOS system, in which siRNA duplexes are made from oligo templates driven by opposing U6 and H1 promoters. While effective, it is not equipped to express multiple siRNAs in a single vector. Gibson DNA Assembly (GDA) is an in vitro recombination system that has the capacity to assemble multiple overlapping DNA molecules in a single isothermal step. Here, we developed a GDA-based pSOK assembly system for constructing single vectors that express multiple siRNA sites. The assembly fragments were generated by PCR amplifications from the U6-H1 template vector pB2B. GDA assembly specificity was conferred by the overlapping unique siRNA sequences of insert fragments. To prove the technical feasibility, we constructed pSOK vectors that contain four siRNA sites and three siRNA sites targeting human and mouse β-catenin, respectively. The assembly reactions were efficient, and candidate clones were readily identified by PCR screening. Multiple β-catenin siRNAs effectively silenced endogenous β-catenin expression, inhibited Wnt3A-induced β-catenin/Tcf4 reporter activity and expression of Wnt/β-catenin downstream genes. Silencing β-catenin in mesenchymal stem cells inhibited Wnt3A-induced early osteogenic differentiation and significantly diminished synergistic osteogenic activity between BMP9 and Wnt3A in vitro and in vivo. These findings demonstrate that the GDA-based pSOK system has been proven simplistic, effective and versatile for simultaneous expression of multiple siRNAs. Thus, the reported pSOK system should be a valuable tool for gene function studies and development of novel therapeutics. Public Library of Science 2014-11-14 /pmc/articles/PMC4232585/ /pubmed/25398142 http://dx.doi.org/10.1371/journal.pone.0113064 Text en © 2014 Deng et al http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Deng, Fang
Chen, Xiang
Liao, Zhan
Yan, Zhengjian
Wang, Zhongliang
Deng, Youlin
Zhang, Qian
Zhang, Zhonglin
Ye, Jixing
Qiao, Min
Li, Ruifang
Denduluri, Sahitya
Wang, Jing
Wei, Qiang
Li, Melissa
Geng, Nisha
Zhao, Lianggong
Zhou, Guolin
Zhang, Penghui
Luu, Hue H.
Haydon, Rex C.
Reid, Russell R.
Yang, Tian
He, Tong-Chuan
A Simplified and Versatile System for the Simultaneous Expression of Multiple siRNAs in Mammalian Cells Using Gibson DNA Assembly
title A Simplified and Versatile System for the Simultaneous Expression of Multiple siRNAs in Mammalian Cells Using Gibson DNA Assembly
title_full A Simplified and Versatile System for the Simultaneous Expression of Multiple siRNAs in Mammalian Cells Using Gibson DNA Assembly
title_fullStr A Simplified and Versatile System for the Simultaneous Expression of Multiple siRNAs in Mammalian Cells Using Gibson DNA Assembly
title_full_unstemmed A Simplified and Versatile System for the Simultaneous Expression of Multiple siRNAs in Mammalian Cells Using Gibson DNA Assembly
title_short A Simplified and Versatile System for the Simultaneous Expression of Multiple siRNAs in Mammalian Cells Using Gibson DNA Assembly
title_sort simplified and versatile system for the simultaneous expression of multiple sirnas in mammalian cells using gibson dna assembly
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4232585/
https://www.ncbi.nlm.nih.gov/pubmed/25398142
http://dx.doi.org/10.1371/journal.pone.0113064
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